Astronomy and Astrophysics, volume 587A, 88-88 (2016/3-1)
Dust production in debris discs: constraints on the smallest grains.
Abstract (from CDS):
The surface energy constraint puts a limit on the smallest fragment ssurf that can be produced after a collision. Based on analytical considerations, this mechanism has been recently identified as being having the potential to prevent the production of small dust grains in debris discs and to cut off their size distribution at sizes larger than the blow-out size. We numerically investigate the importance of this effect to find out under which conditions it can leave a signature in the small-size end of a disc's particle size distribution (PSD). An important part of this work is to map out, in a disc at steady-state, what is the most likely collisional origin for µm-sized dust grains, in terms of the sizes of their collisional progenitors. For the first time, we implement the surface energy constraint into a collisional evolution code. We consider a typical debris disc extending from 50 to 100 au and two different stellar types: sun-like and A star. We also consider two levels of stirring in the disc: dynamically ``hot'' (<e≥0.075) and ``cold'' (<e≥0.01). In all cases, we derive ssurf maps as a function of target and projectile sizes, st and sp, and compare them to equivalent maps for the dust-production rate. We then compute disc-integrated profiles of the PSD and estimate the imprint of the surface energy constraint. We find that the (sp,st) regions of high ssurf values do not coincide with those of high dust production rates. As a consequence, the surface energy constraint generally has a weak effect on the system's PSD. The maximum ssurf-induced depletion of µm-sized grains is ∼30% and is obtained for a sun-like star and a dynamically ``hot'' case. For the e=0.01 cases, the surface energy effect is negligible compared to the massive small grain depletion that is induced by another mechanism: the ``natural'' imbalance between dust production and destruction rates in low-stirring discs.
planetary systems - circumstellar matter